We performed various ophthalmic investigations in order to confirm the diagnosis and document the various features of posterior microphthalmos in a 21-year-old male. Ophthalmic examination revealed low vision with high hyperopia, papillomacular folds, midperipheral pigmentary changes and crowded optic discs. The optic discs were small and crowded with increased nerve fiber layer thickness. Fundus fluorescein angiography showed reduced diameter of a capillary free zone. Anterior segment (AS) optical coherence tomography demonstrated near normal anterior chamber depths, but markedly diminished anterior chamber angles. In spite of the increased corneal thickness and steep corneas, lens thickness and endothelial cell counts were normal. Sclerochoroidal thickening and foreshortening of the globes were detected with B-scan ultrasonography. Electroretinographic findings and visual field tests were similar to those in pigmentary retinopathy. Posterior microphthalmos is a complex eye disorder, which affects predominantly the posterior segment but also involves the AS of the eye.

Microphthalmos is a developmental disorder of the eye due to arrest in growth of the ocular tissues. It is defined as a total axial length (TAL) at least two standard deviations below the normal TAL for the patient's age. Microphthalmos can be simple (without major ophthalmic complications) or mixed (presence of serious ophthalmic complications). Microphthalmos may primarily affect the posterior segment in which case it is termed as "posterior microphthalmos". [1] In previous reports, evaluation of anterior and posterior segment features of posterior microphthalmic eyes performed with A-scan and B-scan ultrasonography (USG), [2] electroretinogram (ERG), fluorescein angiography (FA), [1],[2] Goldmann kinetic perimetry [3] and posterior segment optical coherence tomography (OCT) and ultrasound biomicroscopy (UBM). [4] With the advances in anterior segment (AS) imaging using OCT which provides high-resolution cross-sectional images, it is possible to explore AS structures more extensively. [5] To the best of our knowledge, no similar study reporting AS-OCT findings of posterior microphthalmos has been published. In this report, we aim to describe all the findings of posterior microphthalmos including AS-OCT.

Figure 2: (a) Cross-sectional image on spectral-domain optical coherence tomography (OCT) of a patient revealing neural retinal folds of the right and left eye. (b) Narrow anterior chamber angles with thickened ciliary bodies in anterior segment-OCT imaging of the right and left eye

Figure 3: (a) Vitreous cavity of decreased length and sclerochoroidal thickening in B-scan ultrasonography for the right and left eye. (b) Representation of the constricted visual fields of the right and left eyes

A wide variety of pathologic features can be associated with posterior microphthalmos. These features include pigmentary retinopathy, foveoschisis, [3] peripheral retinoschisis, retinal dialysis, [1] absence or reduction of capillary-free zone, [2] optic nerve head drusen, [3] papillomacular and/or chorioretinal folds, [2],[3] and uveal effusion syndrome. [6] In previous reports, some familial cases of posterior microphthalmos have been identified with autosomal recessive inheritance. [4] Based on negative family history and lack of consanguineous marriage, we believe that this is a sporadic type of microphthalmos. In prenatal eye growth, while the outer ocular coats including RPE, choroid and sclera lag behind in development, unrestrained neuroretinal growth causes papillomacular folds. [7] In our patient, OCT clearly demonstrated that papillomacular folds contained only neural retina without involvement of RPE and choroid as previously reported. [4] Although high hyperopia and elevated papillomacular folds are the main causes of visual impairment in posterior microphthalmic eyes, other chorioretinal changes such as pigmentary retinopathy should be considered as a contributing factor for limited vision. The present patient had RPE clumping suggestive of photoreceptor death which was confirmed by the ERG findings. Midperipheral scotomas are a characteristic feature of pigmentary retinopathies due to the loss of rod and cone function. [6] Visual field constriction and generalized depression in perimetric examination of our patient can be the contribution of either pigmentary retinopathy or high hypermetropia. We observed the presence of crowded optic discs in this patient, consistent with previous reports. [2] Optic nerve head analysis revealed increased retinal nerve fiber layer thickness and decreased optic disc area compared with patients with normal axial length. It is probably related to a dense arrangement of the nerve fibers in optic discs in the small scleral canal. Orbscan analysis showed the presence of steep corneas with high keratorefractive indices and increased corneal thickness. Corneal ECCs and lens thickness were similar to healthy age-matched subjects. Although ACD and horizontal corneal diameters were slightly lower in both eyes than in normal patients of this age, AS-OCT revealed nearly closed narrow anterior chamber angles (ACA), which can be a risk for acute angle closure. Erdol etal. [4] described similar anterior chamber characteristics in two posterior microphthalmic eyes with UBM. They [4] found displacement in ciliary bodies toward the pupil from their normal anatomic position and a subtle degree of supracohoroidal effusion. However in our patient, there was no evidence of pathologic changes in these structures except thickening in ciliary bodies and prominent narrowing of the ACAs. In this report, we described the complex ocular phenotype of posterior microphthalmos including pigmentary retinopathy, papillomacular folds, reduced capillary-free zone, thickened sclera and choroid as well as narrow ACAs. We found that not only posterior segment structures but also AS especially ACAs show abnormalities, which can be evaluated by AS-OCT. Clinicians should bear in mind that even if the microphthalmic features affect predominantly the posterior segment, anterior structures can be involved to a larger extentz than expected from the clinical examination. A complete ophthalmic examination and appropriate ancillary tests are necessary for the diagnosis of this complex disease and the recognition of all the possible ophthalmic complications.